A phase detector for a phase-locked loop includes a phase detector that is configured to become unstable, oscillate and drift rapidly in frequency in a predictable manner when a reference frequency signal is not available. When applied, for example, to a power converter connected to a power distribution grid, the predictable oscillatory and rapid frequency drift behavior when the phase detector is unstable allows very rapid and reliable detection of disconnection from the grid, referred to as islanding.
Legal claims defining the scope of protection, as filed with the USPTO.
2. A phase detector as recited in claim 1 , wherein said phase detector comprises a loop filter, an integrator connected to an output of said loop filter, a first feedback path configured to compute a sine of the output of said integrator, a second feedback path configured to compute a cosine of the output of said integrator, a first multiplier configured to multiply an output of said first feedback path and an output of said second feedback path, a second multiplier configured to multiply said output of said second feedback path by an input, a summation device configured to output a difference of outputs of said first multiplier and said second multiplier, and a connection from an output of said summation device to an input of said loop filter.
3. A phase detector as recited in claim 2 , further comprising a third feedback path from an output of said loop filter, said third feedback path including gain, wherein said connection includes a third multiplier for multiplying an output of said summation device and an output of said third feedback path.
4. A phase detector as recited in claim 3 , said phase detector further comprising an amplitude error correction circuit, and a fourth feedback path for providing a signal corresponding to an output of said loop filter to said amplitude error correction circuit.
5. A phase detector as recited in claim 4 wherein said amplitude error correction circuit comprises a further integrator, an all pass filter, and a further summation circuit configured to sum an output of said further integrator and an output of said all pass filter.
6. A phase detector as recited in claim 1 , further comprising a feedback path from an output of a loop filter, said feedback path including gain, and a multiplier for multiplying said error signal and an output of said feedback path.
7. A phase detector as recited in claim 6 , said phase detector further comprising an amplitude error correction circuit, and a further feedback path for providing a signal corresponding to an output of said loop filter to said amplitude error correction circuit.
8. A phase detector as recited in claim 7 wherein said amplitude error correction circuit comprises an integrator, an all pass filter, and a further summation circuit configured to sum an output of said integrator and an output of said all pass filter.
10. A phase-locked loop circuit as recited in claim 9 , wherein said phase detector comprises a loop filter, an integrator connected to an output of said loop filter, a first feedback path configured to compute a sine of the output of said integrator, a second feedback path configured to compute a cosine of the output of said integrator, a first multiplier configured to multiply an output of said first feedback path and an output of said second feedback path, a second multiplier configured to multiply said output of said second feedback path by an input, a summation device configured to output a difference of outputs of said first multiplier and said second multiplier, and a connection from an output of said summation device to an input of said loop filter.
11. A phase-locked loop circuit as recited in claim 10 , wherein said phase detector further comprises a third feedback path from an output of said loop filter, said third feedback path including gain, wherein said connection includes a third multiplier for multiplying an output of said summation device and an output of said third feedback path.
12. A phase-locked loop circuit as recited in claim 11 , wherein said phase detector further comprises an amplitude error correction circuit, and a fourth feedback path for providing a signal corresponding to an output of said loop filter to said amplitude error correction circuit.
13. A phase-locked loop circuit as recited in claim 12 wherein said amplitude error correction circuit comprises a further integrator, an all pass filter, and a further summation circuit configured to sum an output of said further integrator and an output of said all pass filter.
14. A phase-locked loop circuit as recited in claim 9 , further comprising a feedback path from an output of a loop filter, said feedback path including gain, and a multiplier for multiplying said error signal and an output of said feedback path.
15. A phase-locked loop as recited in claim 14 , said phase detector further comprising an amplitude error correction circuit, and a further feedback path for providing a signal corresponding to an output of said loop filter to said amplitude error correction circuit.
16. A phase-locked loop as recited in claim 15 wherein said amplitude error correction circuit comprises an integrator, an all pass filter, and a further summation circuit configured to sum an output of said integrator and an output of said all pass filter.
18. A controller as recited in claim 17 , wherein said phase detector comprises a loop filter, an integrator connected to an output of said loop filter, a first feedback path configured to compute a sine of the output of said integrator, a second feedback path configured to compute a cosine of the output of said integrator, a first multiplier configured to multiply an output of said first feedback path and an output of said second feedback path, a second multiplier configured to multiply said output of said second feedback path by an input, a summation device configured to output a difference of outputs of said first multiplier and said second multiplier, and a connection from an output of said summation device to an input of said loop filter.
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July 14, 2011
September 2, 2014
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